公开(公告)号：US11669974B2

公开(公告)日：2023-06-06

申请号：US17853307

申请日：2022-06-29

Applicant: Brainlab AG

Inventor： Jens Schmaler ,  Andreas Giese ,  Andreas Blumhofer

IPC: G06T7/11 ,  G06T7/70 ,  G06T7/00 ,  G06T7/20

CPC classification number: G06T7/11 ,  G06T7/0012 ,  G06T7/20 ,  G06T7/70 ,  G06T2207/20128 ,  G06T2207/30081

Abstract: Disclosed is a computer-implemented method of segmenting a medical patient image using an atlas and relating the segmentation result to a model of possible geometric changes to the segmentation result (e.g. for correcting the position of the segmentation of anatomical structures) which consider for example anatomical limitations. The thus-related segmentation result may be used as a basis for changing and/or correcting the position, shape and/or orientation of at least parts of the segmentation result, e.g. by user interaction. The invention also relates to an atlas data set comprising information such as values of the variables of the model of possible geometric changes in relation to the positions of anatomical structures in the atlas.

公开(公告)号：US20220122255A1

公开(公告)日：2022-04-21

申请号：US17281472

申请日：2019-12-19

Applicant: Brainlab AG

Inventor： Stefan Vilsmeier ,  Jens Schmaler

IPC: G06T7/00 ,  G06V10/82 ,  G06V20/69 ,  G06T7/136

Abstract: Disclosed is a computer-implemented method which encompasses registering a tracked imaging device such as a microscope having a known viewing direction and an atlas to a patient space so that a transformation can be established between the atlas space and the reference system for defining positions in images of an anatomical structure of the patient. Labels are associated with certain constituents of the images and are input into a learning algorithm such as a machine learning algorithm, for example a convolutional neural network, together with the medical images and an anatomical vector and for example also the atlas to train the learning algorithm for automatic segmentation of patient images generated with the tracked imaging device. The trained learning algorithm then allows for efficient segmentation and/or labelling of patient images without having to register the patient images to the atlas each time, thereby saving on computational effort.

公开(公告)号：US12266154B2

公开(公告)日：2025-04-01

申请号：US18496306

申请日：2023-10-27

Applicant: Brainlab AG

Inventor： Stefan Vilsmeier ,  Jens Schmaler

IPC: G06V10/764 ,  G06T7/00 ,  G06T7/136 ,  G06T7/70 ,  G06V10/26 ,  G06V10/774 ,  G06V10/82 ,  G06V20/69 ,  G06V20/70

Abstract: Disclosed is a computer-implemented method which encompasses registering a tracked imaging device such as a microscope having a known viewing direction and an atlas to a patient space so that a transformation can be established between the atlas space and the reference system for defining positions in images of an anatomical structure of the patient. Labels are associated with certain constituents of the images and are input into a learning algorithm such as a machine learning algorithm, for example a convolutional neural network, together with the medical images and an anatomical vector and for example also the atlas to train the learning algorithm for automatic segmentation of patient images generated with the tracked imaging device. The trained learning algorithm then allows for efficient segmentation and/or labelling of patient images without having to register the patient images to the atlas each time, thereby saving on computational effort.

公开(公告)号：US12190522B2

公开(公告)日：2025-01-07

申请号：US18306656

申请日：2023-04-25

Applicant: Brainlab AG

Inventor： Jens Schmaler ,  Andreas Giese ,  Andreas Blumhofer

IPC: G06T7/70 ,  G06T7/00 ,  G06T7/11 ,  G06T7/20

Abstract: Disclosed is a computer-implemented method of segmenting a medical patient image using an atlas and relating the segmentation result to a model of possible geometric changes to the segmentation result (e.g. for correcting the position of the segmentation of anatomical structures) which consider for example anatomical limitations. The thus-related segmentation result may be used as a basis for changing and/or correcting the position, shape and/or orientation of at least parts of the segmentation result, e.g. by user interaction. The invention also relates to an atlas data set comprising information such as values of the variables of the model of possible geometric changes in relation to the positions of anatomical structures in the atlas.

公开(公告)号：US10977390B2

公开(公告)日：2021-04-13

申请号：US16754419

申请日：2019-02-28

Applicant: Brainlab AG

Inventor： Andreas Blumhofer ,  Jens Schmaler

IPC: G06K9/00 ,  G06F21/62 ,  G06T5/00 ,  G16H30/40

Abstract: Disclosed is a computer-implemented method for generating an anonymized medical image of an anatomical body part of a patient, a corresponding computer program, a program storage medium storing such a program and a computer for executing the program, as well as a medical system comprising an electronic data storage device and the aforementioned computer. The disclosed method encompasses establishing a mapping from a patient image onto an atlas, changing that mapping, and applying the inverse of the changed mapping to the atlas in order to transform image content from the atlas to the patient image in order to achieve a deformed and thereby anonymised appearance of the patient image.

公开(公告)号：US20220122266A1

公开(公告)日：2022-04-21

申请号：US17281493

申请日：2019-12-20

Applicant: Brainlab AG

Inventor： Stefan Vilsmeier ,  Andreas Blumhofer ,  Jens Schmaler

IPC: G06T7/143 ,  G06T7/00 ,  G06T7/174

Abstract: Disclosed is a computer-implemented methods of determining distributions of corrections for correcting the segmentation of medical image data, determining corrections for correcting the segmentation of medical image data, training a learning algorithm for determining a segmentation of a digital medical image, and determining a relation between an image representation of the anatomical body part in an individual medical image and a label to be associated with the image representation of the anatomical body part in the individual medical image using the trained machine learning algorithm. The methods encompass reading a plurality of corrections to image segmentations, wherein the corrections themselves may have been manually generated, transforming these corrections into a reference system which is not patient-specific such as an atlas reference system, conducting a statistical analysis of the correction, and applying the re-transformed result of the statistical analysis to patient images. The result of the statistical analysis may also be used to appropriately train a machine learning algorithm for automatic segmentation of patient images. The application of such a trained machine learning algorithm is also part of this disclosure.

公开(公告)号：US20220110693A1

公开(公告)日：2022-04-14

申请号：US17281478

申请日：2019-12-18

Applicant: Brainlab AG

Inventor： Stefan Vilsmeier ,  Andreas Blumhofer ,  Jens Schmaler ,  Patrick Hiepe

IPC: A61B34/20 ,  A61B34/10 ,  G16H50/50 ,  G16H30/40

Abstract: Disclosed is a computer-implemented of adapting a biomechanical model of an anatomical body part of a patient to a current status of the patient. The method encompasses determination of a currently executed step of a workflow such as a medical intervention, the result of the determination serving as a basis for adapting and/or updating a biomechanical model of an anatomical body part to the corresponding current status of the patient. The determination of the current workflow step may also be used as basis for controlling an imaging device for tracking entities around the patient or for imaging the anatomical body part or acquiring further data or for urging the user to perform a specific action such as acquisition of information using a tracked instrument such as a pointer. The biomechanical model has been generated from atlas data. The data sets which are generated according to the current workflow step may additionally or alternatively serve as a basis for determining the current workflow step and/or adapting the further workflow.

公开(公告)号：US20150294467A1

公开(公告)日：2015-10-15

申请号：US14437784

申请日：2013-06-28

Applicant: BRAINLAB AG

Inventor： Andreas Blumhofer ,  Bálint Varkuti ,  Jens Schmaler

IPC: G06T7/00 ,  G06T11/00

CPC classification number: G06T7/0012 ,  G06F19/00 ,  G06F19/321 ,  G06T3/0056 ,  G06T7/30 ,  G06T7/32 ,  G06T7/38 ,  G06T11/008 ,  G06T2207/10004 ,  G06T2207/10076 ,  G06T2207/10081 ,  G06T2207/10084 ,  G06T2207/10088 ,  G06T2207/10116 ,  G06T2207/20081 ,  G06T2207/20104 ,  G06T2207/20128 ,  G06T2207/20221 ,  G06T2207/30004 ,  G06T2207/30196 ,  G16H50/50

Abstract: The present invention relates to a medical data processing method of transforming a representation of an anatomical structure (1) of a patient in a first imaging modality into a representation of the anatomical structure (1′) in a second, other imaging modality, the method being constituted to be executed by a computer and comprising the following steps: a) acquiring (S1) first modality image data describing the first modality medical image containing the representation of the anatomical structure (1) in the first imaging modality; b) acquiring (S1) atlas data describing a first modality atlas image describing a general structure of the anatomical structure (1) in the first imaging modality, the atlas data containing information about the representation of the general structure in the second imaging modality; c) determining (S3), based on the first modality image data and the atlas data, a first matching transformation between the first modality medical image and the first modality atlas image; d) determining (S5), based on the first matching transformation and the first modality atlas image and the information about the representation of the general structure in the second imaging modality second modality, a second modality image representation of the first modality medical

Abstract translation: 本发明涉及将第一成像模式中的患者的解剖结构（1）的表示变换为第二其他成像模态中的解剖结构（1'）的表示的医疗数据处理方法，该方法 被构造为由计算机执行并且包括以下步骤：a）获取（S1）描述在第一成像模式中包含解剖结构（1）的表示的第一模态医学图像的第一模态图像数据; b）获取（S1）描述描述第一成像模态中解剖结构（1）的一般结构的第一模态图集的图像数据，所述图集数据包含关于第二成像模态中的一般结构的表示的信息; c）基于第一模态图像数据和图集数据确定（S3）第一模态医学图像和第一模态图谱之间的第一匹配变换; d）基于第一匹配变换和第一模态图集和关于第二成像模态第二模态中的一般结构的表示的信息来确定（S5），第一模态医学的第二模态图像表示

公开(公告)号：US12295671B2

公开(公告)日：2025-05-13

申请号：US17786879

申请日：2020-12-14

Applicant: Brainlab AG

Inventor： Stefan Vilsmeier ,  Andreas Blumhofer ,  Jens Schmaler ,  Patrick Hiepe

IPC: A61B34/20 ,  A61B34/10 ,  G06T7/00 ,  G06V10/10 ,  G06V10/25 ,  G16H30/40 ,  G16H50/50

Abstract: Disclosed is a computer-implemented of adapting a biomechanical model of an anatomical body part of a patient to a current status of the patient. The method encompasses determination of a currently executed step of a workflow such as a medical intervention, the result of the determination serving as a basis for adapting and/or updating a biomechanical model of an anatomical body part to the corresponding current status of the patient. The determination of the current workflow step may also be used as basis for controlling an imaging device for tracking entities around the patient or for imaging the anatomical body part or acquiring further data or for urging the user to perform a specific action such as acquisition of information using a tracked instrument such as a pointer. The biomechanical model has been generated from atlas data. The data sets which are generated according to the current workflow step may additionally or alternatively serve as a basis for determining the current workflow step and/or adapting the further workflow.

公开(公告)号：US11877809B2

公开(公告)日：2024-01-23

申请号：US17281478

申请日：2019-12-18

Applicant: Brainlab AG

Inventor： Stefan Vilsmeier ,  Andreas Blumhofer ,  Jens Schmaler ,  Patrick Hiepe

IPC: A61B5/00 ,  A61B34/20 ,  A61B34/10 ,  G16H50/50 ,  G16H30/40 ,  G06V10/25 ,  G06V10/10 ,  G06T7/00

CPC classification number: A61B34/20 ,  A61B34/10 ,  G06T7/0012 ,  G06V10/17 ,  G06V10/25 ,  G16H30/40 ,  G16H50/50 ,  A61B2034/102 ,  A61B2034/105 ,  A61B2034/2063 ,  A61B2034/2065

Abstract: Disclosed is a computer-implemented of adapting a biomechanical model of an anatomical body part of a patient to a current status of the patient. The method encompasses determination of a currently executed step of a workflow such as a medical intervention, the result of the determination serving as a basis for adapting and/or updating a biomechanical model of an anatomical body part to the corresponding current status of the patient. The determination of the current workflow step may also be used as basis for controlling an imaging device for tracking entities around the patient or for imaging the anatomical body part or acquiring further data or for urging the user to perform a specific action such as acquisition of information using a tracked instrument such as a pointer. The biomechanical model has been generated from atlas data. The data sets which are generated according to the current workflow step may additionally or alternatively serve as a basis for determining the current workflow step and/or adapting the further workflow.